CN1746622A

CN1746622A - Structures for supporting vibrators and devices for measuring physical quantities

Info

Publication number: CN1746622A
Application number: CNA2005101040149A
Authority: CN
Inventors: 林茂树; 菊池尊行; 木下裕介
Original assignee: NGK Insulators Ltd; Seiko Epson Corp
Current assignee: Seiko Epson Corp
Priority date: 2004-09-10
Filing date: 2005-09-09
Publication date: 2006-03-15
Anticipated expiration: 2025-09-09
Also published as: JP4428309B2; EP1635140A3; CN102003956B; EP1635140B1; CN1746622B; JP2006105963A; KR20060051184A; US20060053884A1; EP1635140A2; CN102003956A; US7278313B2; KR100876372B1

Abstract

It is provided a supporting structure having a substrate 12 and bonding wires 14A, 14B fixed onto the substrate 12 and connected to a vibrator 1. The substrate 12 has a pair of fixed portions 12a opposing each other and a pair of non-fixed portions 12b opposing each other. The fixed portions 12a and the non-fixed portions 12b together define a through hole 13A in the substrate 12. The vibrator 1 is supported with the bonding wire so that the vibrator 1 is not directly contacted with the substrate 12. The bonding wires 14A, 14B are fitted to the fixed portion 12a and is not fitted to any of the non-fixed portions 12b.

Description

Be used to the device that supports the structure of Vib. and be used for measure physical quantities

Related application

The application's statement is that P2005-207260 submitted on July 15th, 2005 to application number and application number is the right of P2004-263320 in the Japanese patent application of submission on September 10th, 2004.These applications all are incorporated herein by reference at this.

Technical field

The invention provides and be used to the device that supports the structure of Vib. and be used for measure physical quantities, such as vibration revolving instrument.

Background technology

In the delivery vehicle vehicle control system, vibration revolving instrument and Vib. thereof can experience the temperature range that comprises high temperature and low temperature of broad.Such temperature range generally includes between-40 ℃ to+85 ℃, and also may be wideer under severeer stipulations.Especially, when Vib. was made by piezoelectric single crystal, the temperature dependency of monocrystal also can have influence on gyroscopic stability.

Japanese patent application 2003-28648A has disclosed the member that is used for being supported on the Vib. that vibration revolving instrument uses.Disclose according to this, this supporting member is made up of an elongate rod with the complex form bending, makes Vib. support with this bar.Being electrically connected of electrode on also having described this supporting member and being positioned at Vib..

In addition, the assignee has submitted Japanese patent publication 2003-294450A to and has disclosed Vib. and supported with the closing line on the substrate in the shell.This closing line links to each other with the lip-deep electrode of Vib..

Summary of the invention

Yet,, can observe sizable temperature drift at for example high-temperature area according to this method for supporting.For example, as shown in Figure 3, thereby gyroscopic signal can rise rapidly in room temperature range and caused peakdeviation zero point.Be used for vibration revolving instrument if shown the Vib. of undesired vibration, then the skew of the zero temperature in the detection signal will increase, and makes that gyrostat not can be used as the sensor use in worst-case.

An object of the present invention is to provide a kind of supporting construction of device of measure physical quantities, the zero temperature that this device uses Vib. to reduce in the detection signal is offset.

The invention provides a kind of structure that is used to support Vib., described structure comprises substrate, and this substrate comprises a pair of fixed part respect to one another and a pair of non-fixed portions respect to one another.Should be fixing and non-fixed portions define through hole in this substrate together, and closing line is fixed on the substrate and with Vib. and links to each other.Vib. supports with closing line and makes Vib. not directly and substrate contacts, and closing line is contained in fixed part and is not contained in non-fixed portions.

The present invention also provides the device that is used for measure physical quantities that comprises above-mentioned supporting construction.

The inventor after deliberation the reason of peak temperature skew, as shown in Figure 3, and obtain following the discovery.That is, the inventor has successfully prevented the pseudo-pattern vibration of Vib. basically, and the vibration of closing line is to the adverse effect of final detection signal.Even the inventor after deliberation the reason that still observed zero temperature as shown in Figure 3 is offset after preventing pseudo-vibration and adverse effect.As a result, the vibration mode of finding to be used to support the supporting baseplate of Vib. can cause the temperature drift of detection signal.The influence of this supporting baseplate is ignored by those skilled in the art always.

The inventor has also studied design to closing line and base plate based on above discovery.According to the present invention, in support floor, be provided with the through hole that is used to insert closing line.A pair of fixed part and a pair of non-fixed portions are provided to limited hole together.The fixed part that is used to support the supporting baseplate of Vib. is fixed to the bottom base plate, and on shell bottom plate, non-fixed portions is then between two fixed parts.

Fixed part refers to be fixed to the part of the supporting baseplate of bottom base plate.

Non-fixed portions refers to not be fixed on the part of the supporting baseplate on the bottom base plate.

The inventor has produced such thinking: closing line is not stretched out the closing line connection or the fixed part of packing into from non-fixed portions.Thereby, thereby the vibration that reduces supporting baseplate prevents that to the adverse effect of detection signal the zero temperature skew from being possible, the vibration of this supporting baseplate has the characteristic frequency near the resonance frequency " fd " that drives vibration.The present invention is promptly based on above discovery.

These and other objects of the present invention, feature and advantage can obtain understanding after consulting the following description of the present invention and accompanying drawing, and understand those skilled in the art and can make some modifications, change and change to the present invention.

Description of drawings

Fig. 1 is the design drawing that the driving vibration mode that can be used for Vib. 1 of the present invention is shown.

Fig. 2 is the design drawing that the detection vibration mode of Vib. 1 is shown.

Fig. 3 illustrates pivoted member and the curve map of the relation of temperature at zero point in the comparative example.

Fig. 4 illustrates pivoted member and the curve map of the relation of temperature at zero point in the example according to the present invention.

Fig. 5 (a) is the design drawing that diagram can be used for supporting construction of the present invention.

Fig. 5 (b) is the front view that the supporting construction of Fig. 5 (a) is shown.

Fig. 6 is the design drawing according to the illustrated supporting construction of another embodiment of the present invention.

Fig. 7 is the design drawing according to the illustrated supporting construction of further embodiment of this invention.

Fig. 8 is the design drawing according to the illustrated supporting construction of another embodiment of the present invention.

Fig. 9 is the design drawing according to the illustrated supporting construction of further embodiment of this invention.

Figure 10 is the cross sectional view of the supporting construction of pictorial image 9.

Figure 11 illustrates the design drawing that can be used for another supporting construction of the present invention.

Figure 12 illustrates the design drawing that can be used for another supporting construction of the present invention.

Figure 13 illustrates the design drawing that can be used for another supporting construction of the present invention.

Figure 14 illustrates the design drawing that can be used for another supporting construction of the present invention.

Figure 15 illustrates the design drawing that can be used for another supporting construction of the present invention.

Figure 16 illustrates the design drawing that can be used for another supporting construction of the present invention.

Figure 17 is the design drawing that the shape that can be used for closing line of the present invention and substrate is shown.

Figure 18 is the design drawing of the Vib. that supported on the substrate that illustrates as shown in figure 17.

Figure 19 is the curve map that example illustrates the temperature variation of demodulation according to the present invention.

Figure 20 is the curve map that example illustrates the temperature variation of demodulation according to the present invention.

Embodiment

According to a preferred embodiment, Vib. has driving shaker arm, the detection shaker arm that has pick-up unit that has drive unit and is located at the base portion that drives and detect between the shaker arm.Vib. preferably also has the elongated coupling part that connects base portion and drive shaker arm.Although the present invention is described with reference to present embodiment, the present invention is not limited to such Vib..

Fig. 1 is the design drawing that Vib. 1 (driving vibration mode) is shown according to one embodiment of the invention.Fig. 2 is the design drawing that the detection vibration mode of Vib. 1 is shown.

According to this example, a pair of detection shaker arm 3A that Vib. 1 has base portion 2, stretch out from

base portion

2 and 3B, 10 end provides respectively from a pair of coupling part 10 that base portion 2 stretches out and in the coupling part driving

shaker arm

4A, 4B, 4C and 4D.Each drives the shape of cross section that shaker arm 4A-4D has roughly " H " type.Drive electrode 9 places in the groove.Broad or

heavier part

5A, 5B, 5C and 5D are located at the end that drives shaker arm 4A-4D respectively.Through hole 7 places wider portion respectively.

On each interarea of

detection shaker arm

3A and 3B an elongate grooves is arranged all.Each detects the shape of cross section that shaker arm all has roughly " H " type.Detecting electrode 30 places in the groove.Broad or

heavier part

3A and 3B are located at the end that drives shaker arm 6A-6B respectively.Through hole 8 is respectively formed in each wider portion.

Fig. 1 illustrates the driving vibration mode.When the driving vibration excited in Vib., each drove shaker arm 4A-4D and vibrates as the base portion 11 of its fulcrum around arm with coupling part 10, as arrow " A ".Turning axle (Z-axle) rotation that Vib. 1 extends around Vib. 1 vertical direction.Then coupling part 10 under beam mode with fixed part (base portion) 2 as 10 the base portion vibration of its fulcrum, as arrow " B " around the coupling part.Respond this vibration, each

detects shaker arm

3A and 3B base portion around arm 3 under beam mode vibrates fixed part (base portion) 2, as arrow " C ".Each

detects shaker arm

3A and 3B produces corresponding to the electric signal that detects vibration.This electric signal is used for calculating the angular velocity around turning axle (Z-axle) rotation.

Fig. 5 (a) is the design drawing that diagram is used for supporting construction of the present invention.Fig. 5 (b) illustrates the front view of the supporting construction of Fig. 5 (a).

Center through hole 13A is formed in the substrate 12.According to this example, through hole 13A has the elongated shape such as rectangle.Substrate 12 has a pair of fixed part 12a respect to one another, and a pair of non-fixed portions 12b respect to one another.Fixed part 12a and non-fixed portions 12b be limited hole 13A together.According to this example, fixed part 12a has big width, and non-fixed portions has less width.Fixed part 12a is fixed on the bottom base plate such as shell bottom plate.

Vib. 1 directly is supported on the through hole 13A of base plate 12.According to this example, Vib. supports with four closing line 14A and two closing line 14B.Each closing line links to each other with fixed part 12a and is mounted in it, and stretches out towards base portion 2 from the opposite side 13a of fixed part 12a one side of base plate 12.

Each closing line 14A stretches out from each end of each opposite side 13a, and basically with the flat shape bending of " L " type.That is, closing line 14A has wider portion 14a, narrower part 14b and the curved part 14c that gets on parallel with opposite side 13a basically direction basically with on the direction parallel towards the opposite side 13b of through hole 13.The end of sweep 14c links to each other with the electrode that is positioned at base portion 2.

In addition, two closing line 14B that all stretch out from the mid point of each opposite side 13a have wider portion 14a and narrower part 14b.The end of narrower part 14b links to each other with fixed part 2.According to this example, each

closing line

14A and 14B have wider portion 14a and narrower part 14b, thereby can control the vibration performance frequency of whole closing line.The width of closing line can be by for example changing the next easy control of mask width that is used for forming by etching the mask model of closing line profile.

According to the present invention, the distance " T " of the non-fixed portions 12b of base plate and the closing line root (extended position) 30 that stretches out from fixed part 12a (referring to Fig. 5 (a)) can be 0.1 millimeter or more than, preferably 0.2 millimeter or more than, be used to reduce zero temperature skew.

In addition, according to the present invention, the root of the closing line that is connected with fixed part preferably is located near the central shaft that passes through fixed part 12a " X " of base plate 12, is used to reduce the zero temperature skew.The distance " M " of root (extended position) of central shaft " X " and the closing line 14A that is connected to fixed part 12a can be 0.5 millimeter or below, preferably 0.3 millimeter or below.

According to example shown in Figure 6, the width of through hole 13B is narrower than through hole 13A shown in Figure 5, thereby each closing line will be done shortly.The change of this bond wire length causes the change of the vibration performance frequency of closing line.

According to this example, two closing lines 15 reach base portion 2 from each opposite side 13a of wider portion 12a one side of substrate 12.Each closing line 15 has the upwardly extending part 15a in parallel with opposite side 13b basically side, and towards the sweep 15b of base portion 2 bendings.The end of sweep 15b links to each other with electrode on the fixed part 2.Part 15a and 15b intersect mutually with the angle " θ " of as shown in Figure 5 right angle or acute angle as shown in Figure 6.Angle " θ " can be changed to change the characteristic frequency of whole closing line.

According to example shown in Fig. 9, represent also can omit relevant explanation with same numeral in the part shown in Fig. 5.The supporting substrate 12 of Vib. is fixed on the precalculated position of bottom substrate, for example six positions 16.Each contact point 30 of each position 16 and each closing line and substrate 12 is approaching mutually, thereby can reduce the influence of vibration on detection voltage of closing line.

In this viewpoint, the distance " L " of substrate 12 between the contact point of the fixed position on the bottom substrate 16 and closing line and substrate 12 can be 0.6 millimeter or littler, preferably 0.4 millimeter or littler.

Fig. 8 is the design drawing that illustrates supporting construction according to still another embodiment of the invention.

According to this example, closing line 16 forms sweep 16a and 16b, and the root of 16b is away from narrower non-fixed portions 12b and near the X-axle, and this X-axle is the central shaft of substrate 12.When substrate 12 vibrations, the amplitude of non-fixed portions 12b is just big especially.Thereby the part 30 that closing line 16 stretches out from substrate 12 is away from narrower part 12b and near the X-axle, thereby can effectively avoid the influence of the vibration of substrate 12 to the detected value of the vibration mode of Vib. 1.

According to the example of Fig. 9, the two ends of the fixed part 12a of substrate 12 all are fixed on the fixed part 16.Fixing method is not particularly limited, and can adopt electroconductive binder bonding, welding etc.As shown in figure 10, Vib. 1, substrate 12 and closing line 14A (14B) preferably are included in the shell 19, and have platform 17 and IC chip 18 to be installed on it.Substrate 12 is installed on the platform 17 by electroconductive binder 16, after the electroconductive binder heating base plate bonding is fixed on the platform 17.

Although the kind of electroconductive binder is not subjected to special qualification, can list carbon gluing and noble metal gluing, such as copper, silver, golden gluing etc.

According to example shown in Figure 11, each closing line 22A has the shape identical with closing line shown in Figure 5 basically with 22B.Yet according to this example, the width of the center through hole 13B of substrate 12 is narrower than shown in Figure 5, and has foursquare flat shape basically.

According to example shown in Figure 12, for example six closing lines 23 are from the straight through hole 13A that reaches of the opposite side 13a of fixed part 12a one side.Each closing line 23 all has wider portion 23a and the narrower part 23b that links to each other with base portion 2.

Supporting construction shown in Figure 13 supporting construction with shown in Figure 11 basically is identical.According to this example, the shape of center through hole 13C is rectangle basically, has curved profile 13c respectively on four angles except rectangle.Can change the length of aforesaid shape of through holes, thereby change its characteristic frequency with the change closing line.

According to example shown in Figure 14, three closing lines 26 are from stretching out towards each of a pair of opposite side 13a of the fixed part 12a of through hole 13A.Closing line is straight, and basic maintenance is constant on whole length.The end of closing line links to each other with the precalculated position of the base portion 2 of Vib. 1.

According to example shown in Figure 15, in substrate 12, be provided with center through hole 13A.The shape of center through hole 13A be elongated for example be rectangle basically.Provide a pair of fixed part 12a respect to one another and a pair of non-fixed portions 12b respect to one another, thereby this fixed part 12a and non-fixed portions 12b be limited hole 13A together.

According to this example, Vib. supports with 4 closing line 25A and 2 closing line 25B.Each closing line links to each other with the fixed part 12a of substrate 12 and fixes on it, and stretches out to base portion 2 from the opposite side 13a of fixed part 12a one side.

Each closing line 25A stretches out from the end of each opposite side 13a, and comes crooked basically according to " L " type on the design drawing.That is, closing line 25A has wider portion 25a, narrower part 25b and the curved part 25c that gets on parallel with opposite side 13a basically direction basically with on the direction parallel towards the opposite side 13b of through hole 13.The end of sweep 25c links to each other with the electrode that is positioned at base portion 2.

In addition, two closing line 25B that all stretch out from the mid point of each opposite side 13a have wider portion 25a and narrower part 25b.The end of narrower part 25b links to each other with base portion 2.According to this example, each closing line 25A and 25B have wider portion 25a and narrower part 25b.Yet according to this example, wider portion 25a is than weak point shown in Figure 5.

According to a preferred embodiment, closing line has from fixed part to the extension that through hole stretches out, and a plurality of sweep that links to each other with closing line and Vib. in the extension between the position.Two sweeps vertically different.

According to example shown in Figure 16, used the line 24 of crank-like, rather than " L " shape line 14A shown in Figure 5.A sweep 24c and an addition bend part 24d that line 24 has wider portion 24a, narrower part 24b, stretches out in the narrower part 24b.Can be by increasing the vibration performance frequency that the quantity of sweep wherein changes line.

According to example shown in Figure 17, the shape of center through hole 13C is rectangle basically, is respectively curved profile 13C on four angles except rectangle.In addition,

minor face

13a and 13d are used for reducing slightly the length of closing line 24, thereby closing line 30 can be done slightly longerly.Each of four closing lines 24 with crank-like is all stretched out from short part, and have wider portion 24a, narrower part 24b, the sweep 24c that stretches out in the narrower part 24b and additional sweep 24d.The closing line 30 that each is straight stretches out from minor face 13d, and has wider portion 30a and narrower part 30b.

Figure 18 illustrates the design drawing of its base portion with the Vib. of six closing lines supports shown in Figure 17.

The end of each closing line can link to each other with the low lip-deep end of Vib., perhaps can link to each other with the end on the Vib. high surfaces.

The size of Vib. is not subjected to special restriction.Yet if the weight of Vib. or oversize, too much weight is added in may make closing line distortion after long-time on the closing line.The width of Vib. can be no more than 10 millimeters, preferably is no more than 5 millimeters, the adverse effect of closing line distortion when preventing to vibrate.It seems that from this point the weight of Vib. can be no more than 5 milligrams, preferably be no more than 1 milligram.In addition, the thickness of Vib. can be no more than 0.3 millimeter, preferably is no more than 0.2 millimeter.

The material of substrate 12 is not subjected to special restriction, and can be the insulating material that is used to pack, as pottery, glass or resin.

Closing line links to each other by the technology that is not subjected to special restriction with Vib., comprises hot pressing connection, ultrasound wave connection, spot welding, electroconductive binder or soldering.

Be necessary to support Vib., thus the not direct adverse effect of contact substrate of Vib. to avoid vibrating.According to a preferred embodiment, the distance of Vib. and substrate is not less than 0.1 millimeter, preferably is not less than 0.2 millimeter.

The material of closing line is not subjected to special restriction, can be the synthetic material of metal, resin, bonding agent or metal and resin, and metal preferably.Preferably copper, gold, aluminium, silver, tungsten, stainless steel, iron, nickel, one-tin brass or their alloy.

These metals or alloy can be done the surface by methods such as plating and handle.For example, preferably gold-plated Copper Foil.

The material of Vib. is not subjected to special restriction, preferably piezoelectric single crystal.The piezoelectric single crystal that material is preferably selected from the group of being made up of quartz, lithium niobate, lithium tantalate, lithium niobate-lithium tantalate solid solution, lithium borate and lanthanum gallium silicon hydrochlorate (langasite).

The physical quantity of measuring according to the present invention is not subjected to special restriction.When the vibrational state of Vib. being changed, as long as physical values can detect this physical quantity by a testing circuit and just can comprise in the present invention when the driving vibrational excitation in the Vib. and owing to the influence that is applied to the specific physical quantity on the Vib..These physical quantitys preferably are applied to acceleration, angular acceleration or the angular velocity on the Vib..Measuring system of the present invention is the inertia detector preferably.

Example

(comparative example 1)

Use the Vib. 1A shown in Fig. 1 and 2.Particularly, to be the chromium film of 100 dusts and golden film that thickness is 1500 dusts form by sputtering on the presumptive area that thickness is the wafer made of 0.1 millimeter quartzy Z-plate thickness.Two main surfaces of wafer have all covered diaphragm.

Then wafer is immersed in the aqueous solution of iodine and Potassiumiodate to remove, immerse again in cerium ammonium nitrate and the perchloric acid solution to remove by unnecessary chromium in the etched chromium film by unnecessary gold in the etched golden film.Came etched wafer to form the profile of Vib. 1 in 20 hours by ammonium acid fluoride with 80 ℃ of wafer immersions.Thickness is that the golden film of 2000 dusts uses metal mask to form the film of electrode, and this film is on the chromium film of 100 dusts at thickness.The length of Vib. 1 is 2.0 millimeters, and width is 2.2 millimeters, and thickness is 0.1 millimeter, and weight is about 0.3 milligram.

Vib. 1 is installed on the shell shown in Figure 10.Substrate 12 is formed by polyimide film and the connector with Copper Foil of center through hole.Copper Foil is etched to form closing line, distribution and the contact mat of substrate 12.Framework is made up of the alumina pottery.Copper foil surface is gold-plated.Closing line links to each other with the base portion 2 of Vib. 1 by golden flange 25 with the method that hot pressing connects.

According to this example, each closing line has the width of flat shape and 0.03 millimeter.Vib. supports by six closing lines.Two in six closing lines are fixed on the fixed part 12a, and in addition four be fixed on the non-fixed portions 12b.

The vibration revolving instrument of Huo Deing is inserted in the temperature test chamber like this, and temperature changes in-40 ℃ to+85 ℃ scope.Use the self-excited oscillation circuit to excite and drive vibration, thereby the resonance frequency " fd " that will drive vibration mode is set to 45000 hertz.

The detection signal of such acquisition is handled to extract the gyroscopic signal at zero point.Can prove, in room temperature range, detect the skew of peak value zero temperature, as shown in Figure 3.This zero temperature skew is proved to be 56dps.

The zero temperature calculations of offset is as follows.Zero point, the data of gyroscopic component of signal were drawn as temperature funtion, with offer curves.Removing off peak curve can be similar to by the straight line in-40 to+85 ℃ the scope.Calculate the peak height of relative straight line and it is dispensed to the zero temperature skew.

(example 1)

According to the process identical with comparative example 1, Vib. 1 is supported on the substrate, except applied be supporting construction shown in Figure 16.Zero point the gyroscopic signal component to dependence on temperature as shown in Figure 4.Zero temperature drift proves 2.5dps.That is, zero point, the gyroscopic signal component reduced according to linear function between-40 to+85 ℃ basically, and did not observe tangible zero temperature skew.

(example 2)

According to the process identical with comparative example 1, Vib. 1 is supported on the substrate, except applied be supporting construction shown in Figure 12.Frequency, demodulation frequency to dependence on temperature as shown in figure 19.That is, demodulation reduces in-40 to 85 ℃ of scopes according to linear function basically.The zero temperature skew is proved to be 7dps.

(example 3)

According to the process identical with comparative example 1, Vib. 1 is supported on the substrate, except applied be supporting construction shown in Figure 5.As a result, demodulation to dependence on temperature as shown in figure 20.That is, demodulation reduces in-40 to 85 ℃ of scopes according to linear function basically.The zero temperature skew is proved to be 5dps.

(example 4)

According to the process identical with comparative example 1, Vib. 1 is supported on the substrate, except applied be supporting construction shown in Figure 6.The zero temperature skew is proved to be 6dps.

(example 5)

According to the process identical with comparative example 1, Vib. 1 is supported on the substrate, except applied be supporting construction shown in Figure 8.The zero temperature skew is proved to be 6dps.

The present invention explains with reference to preferred embodiment, but the present invention is not restricted to illustrated embodiment, and these embodiment only provide as example, and available different pattern realizes and do not deviate from scope of the present invention.

Claims

1. a structure that is used to support Vib. is characterized in that, described structure comprises:

Substrate, described substrate comprise a pair of fixed part respect to one another and a pair of non-fixed portions respect to one another, and described fixed part and non-fixed portions define the through hole in this substrate together; And

The closing line that is fixed on described substrate and links to each other with described Vib.,

Wherein said Vib. supports with described closing line, makes described Vib. directly not contact described substrate, and wherein said closing line is contained on the fixed part and is not contained on arbitrary described non-fixed portions.

2. supporting construction as claimed in claim 1 is characterized in that, described Vib. is included in the base portion of described through hole upper support and the shaker arm that stretches out from described base portion, and wherein said base portion supports with described closing line.

3. as claim 1 or 2 described supporting constructions, it is characterized in that, described closing line comprises from described fixed part to the extension that described through hole stretches out, and the sweep of the location bending that links to each other with described Vib. towards described closing line from described extension.

4. as claim 1 or 2 described supporting constructions, it is characterized in that, described closing line comprises from described fixed part to extension that described through hole stretches out, and a plurality of sweeps between described extension and described closing line and position that described Vib. links to each other, described each sweep comprises that it is mutually different vertically.

5. as any described supporting construction of claim 1 to 4, it is characterized in that, described non-fixed portions and described closing line from position that described fixed part stretches out each other at a distance of 0.1 millimeter or more than.

6. as any described supporting construction of claim 1 to 5, it is characterized in that described fixed part links to each other with conductive adhesive on a plurality of positions with the bottom base plate.

7. the device that is used for measure physical quantities comprises any the described structure as claim 1-6.

8. the device that is used for measure physical quantities as claimed in claim 7 comprises a vibration revolving instrument.